将生存剂量率依赖性作为硅内动态放射生物学模型的理论判别标准。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-08-30 eCollection Date: 2024-07-01 DOI:10.1177/15593258241279906
Sergio Mingo Barba, Fernando Lobo-Cerna, Przemek M Krawczyk, Marco Lattuada, Rudolf M Füchslin, Alke Petri-Fink, Stephan Scheidegger
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引用次数: 0

摘要

引言细胞修复动力学是优化抗癌疗法的关键。各种检测方法(如彗星试验和γ-H2AX)可评估放疗后修复动力学,但解读此类数据具有挑战性,因此需要基于模型的数据分析。然而,参数校准的模糊性仍是一个尚未解决的难题。为了解决这个问题,我们建议将生存剂量率效应与计算机模拟相结合,以获得有关修复动力学的知识:方法:经过文献回顾,我们定义了基于常见分馏/剂量率相关效应的理论判别器,以摒弃不切实际的模型动力学。用犬骨肉瘤 Abrams 细胞系数据校准了多击修复(MHR)模型,以研究判别因子在存活数据有限的情况下的有效性。此外,还使用了人类 SiHa 宫颈癌细胞系的生存剂量率依赖性数据来说明不同剂量率下的生存行为以及 MHR 对这些数据建模的能力:结果:SiHa 数据证实了所提出的判别器的有效性。判别器过滤了 99% 的参数集,改善了艾布拉姆斯细胞数据的校准。此外,两种细胞系的结果可能暗示了细胞修复的普遍性:剂量率理论判别标准是了解修复动力学和改进放射生物学模型校准的有效方法。结论:剂量率理论判别标准是了解修复动力学和改进放射生物学模型校准的有效方法,而且这种方法可用于使用动态模型分析各种生物数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Use of Survival Dose-Rate Dependencies as Theoretical Discrimination Criteria for In-Silico Dynamic Radiobiological Models.

Introduction: Cell repair dynamics are crucial in optimizing anti-cancer therapies. Various assays (eg, comet assay and γ-H2AX) assess post-radiation repair kinetics, but interpreting such data is challenging and model-based data analyses are required. However, ambiguities in parameter calibration remain an unsolved challenge. To address this, we propose combining survival dose-rate effects with computer simulations to gain knowledge about repair kinetics.

Methods: After a literature review, theoretical discriminators based on common fractionation/dose-rate-related effects were defined to discard unrealistic model dynamics. The Multi-Hit Repair (MHR) model was calibrated with canine osteosarcoma Abrams cell line data to study the discriminators' efficacy in scenarios with limited survival data. Additionally, survival dose-rate-dependent data from the human SiHa cervical cancer cell line were used to illustrate the survival behavior at diverse dose-rates and the capability of the MHR to model these data.

Results: SiHa data confirmed the validity of the proposed discriminators. The discriminators filtered 99% of parameter sets, improving the calibration of Abrams cells data. Furthermore, results from both cell lines may hint universal aspects of cellular repair.

Conclusions: Dose-rate theoretical discrimination criteria are an effective method to understand repair kinetics and improve radiobiological model calibration. Moreover, this methodology may be used to analyze diverse biological data using dynamic models in-silico.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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